Evaluating the potential of vegetation indices for winter wheat LAI estimation under different fertilization and water conditions
Evaluating the potential of vegetation indices for winter wheat LAI estimation under different fertilization and water conditions
Leaf area index (LAI) is an important indicator for monitoring crop growth conditions and forecasting grain yield. Many algorithms have been developed for remote estimation of the leaf area index of vegetation, such as using spectral vegetation indices, inversion of radiative transfer models, and supervised learning techniques. Spectral vegetation indices, mathematical combination of reflectance bands, are widely used for LAI estimation due to their computational simplicity and their applications ranged from the leaf scale to the entire globe. However, in many cases, their applicability is limited to specific vegetation types or local conditions due to species specific nature of the relationship used to transfer the vegetation indices to LAI. The overall objective of this study is to investigate the most suitable vegetation index for estimating winter wheat LAI under eight different types of fertilizer and irrigation conditions. Regression models were used to estimate LAI using hyperspectral reflectance data from the Pushbroom Hyperspectral Imager (PHI) and in-situ measurements. Our results showed that, among six vegetation indices investigated, the modified soil-adjusted vegetation index (MSAVI) and the normalized difference vegetation index (NDVI) exhibited strong and significant relationships with LAI, and thus were sensitive across different nitrogen and water treatments. The modified triangular vegetation index (MTVI2) confirmed its potential on crop LAI estimation, although second to MSAVI and NDVI in our study. The enhanced vegetation index (EVI) showed moderate performance. However, the ratio vegetation index (RVI) and the modified simple ratio index (MSR) predicted the least accurate estimations of LAI, exposing the simple band ratio index’s weakness under different treatment conditions. The results support the use of vegetation indices for a quick and effective LAI mapping procedure that is suitable for winter wheat under different management practices.
Leaf area index, Hyperspectral remote sensing, Vegetation index, Nitrogen and water treatment
2365-2373
Xie, Qiaoyun
1814eaf3-3ac2-46b9-8ec8-38331e5515fe
Huang, Wenjiang
5e5c849b-070d-4816-9e65-be21220fdb77
Dash, J.
51468afb-3d56-4d3a-aace-736b63e9fac8
Song, Xiaoyu
14653b09-669d-4acb-882c-98e77c9a746b
Huang, Linsheng
c07f8e24-0920-4d59-ab29-1acfbb0915a3
Zhao, Jinling
9030bbc8-5f03-4ae2-ba5d-26d5144b6d68
Wang, Renhong
5cc61cf0-b1ca-4f39-baba-748a4460ae6d
1 December 2015
Xie, Qiaoyun
1814eaf3-3ac2-46b9-8ec8-38331e5515fe
Huang, Wenjiang
5e5c849b-070d-4816-9e65-be21220fdb77
Dash, J.
51468afb-3d56-4d3a-aace-736b63e9fac8
Song, Xiaoyu
14653b09-669d-4acb-882c-98e77c9a746b
Huang, Linsheng
c07f8e24-0920-4d59-ab29-1acfbb0915a3
Zhao, Jinling
9030bbc8-5f03-4ae2-ba5d-26d5144b6d68
Wang, Renhong
5cc61cf0-b1ca-4f39-baba-748a4460ae6d
Xie, Qiaoyun, Huang, Wenjiang, Dash, J., Song, Xiaoyu, Huang, Linsheng, Zhao, Jinling and Wang, Renhong
(2015)
Evaluating the potential of vegetation indices for winter wheat LAI estimation under different fertilization and water conditions.
Advances in Space Research, 56 (11), .
(doi:10.1016/j.asr.2015.09.022).
Abstract
Leaf area index (LAI) is an important indicator for monitoring crop growth conditions and forecasting grain yield. Many algorithms have been developed for remote estimation of the leaf area index of vegetation, such as using spectral vegetation indices, inversion of radiative transfer models, and supervised learning techniques. Spectral vegetation indices, mathematical combination of reflectance bands, are widely used for LAI estimation due to their computational simplicity and their applications ranged from the leaf scale to the entire globe. However, in many cases, their applicability is limited to specific vegetation types or local conditions due to species specific nature of the relationship used to transfer the vegetation indices to LAI. The overall objective of this study is to investigate the most suitable vegetation index for estimating winter wheat LAI under eight different types of fertilizer and irrigation conditions. Regression models were used to estimate LAI using hyperspectral reflectance data from the Pushbroom Hyperspectral Imager (PHI) and in-situ measurements. Our results showed that, among six vegetation indices investigated, the modified soil-adjusted vegetation index (MSAVI) and the normalized difference vegetation index (NDVI) exhibited strong and significant relationships with LAI, and thus were sensitive across different nitrogen and water treatments. The modified triangular vegetation index (MTVI2) confirmed its potential on crop LAI estimation, although second to MSAVI and NDVI in our study. The enhanced vegetation index (EVI) showed moderate performance. However, the ratio vegetation index (RVI) and the modified simple ratio index (MSR) predicted the least accurate estimations of LAI, exposing the simple band ratio index’s weakness under different treatment conditions. The results support the use of vegetation indices for a quick and effective LAI mapping procedure that is suitable for winter wheat under different management practices.
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More information
Accepted/In Press date: 15 September 2015
e-pub ahead of print date: 30 September 2015
Published date: 1 December 2015
Keywords:
Leaf area index, Hyperspectral remote sensing, Vegetation index, Nitrogen and water treatment
Organisations:
Global Env Change & Earth Observation
Identifiers
Local EPrints ID: 383425
URI: http://eprints.soton.ac.uk/id/eprint/383425
ISSN: 0273-1177
PURE UUID: bf1f395d-5f2c-4573-af99-492df16842d3
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Date deposited: 12 Nov 2015 12:15
Last modified: 15 Mar 2024 03:17
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Contributors
Author:
Qiaoyun Xie
Author:
Wenjiang Huang
Author:
Xiaoyu Song
Author:
Linsheng Huang
Author:
Jinling Zhao
Author:
Renhong Wang
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